Automatic electric toaster



Sept .4, 1951 .1. H; PALMER 2,566,904

AUTOMATIC ELECTRIC TCASTER [07 //4 s [09 Vl] 130 29 John H Pmer,

C- Attorney.

Sept. 4, 1951 J. H. PALMER AUTOMATIC ELECTRIC TOASTER 2 SheetsSheet 2 Filed Aug. 3l, 1949 IFM/enter: John H. Palmer',

A H15 Attorney.

Patented Sept. 4, 1951 UNITED STATES PATENT AUTOMASMC fisoiisran J ohn' H. .Fahnen-Milford, Conni; assignor to Gen'- eral-.Electriccompjanm arcor-poration of New York Application Annet-31 IQQtfSeriel-.Ne 113.303

momma. (Clvi99-329i This invention relates .to `electric cookinggapgf paratus and more particularly to a. device for toasting slices of bread. l y

An object of myinvention is to llrtvida'f. im: proved electric apparatus to lowerautomatically a bread carriage upon. insertion of slices of [bread into the toaster, with an` adjustable control ,to regulate the toasting period, at the end of which the electric heaters Within the toaster-:are auto.- matically interrupted andthe carriage :raisesto permit readyremoval of the. completed `toast.

Another object of my invention is toprovide an improved control for terminating the, toasting operation, which controlA is `adjustableexternally almotor and reduction gearing, to lower abroad carriage into toasting positionV against the action of; a spring normally biasing the carriage to -its up `or non-toasting position. The'geargreduction l drive from the motor also includes an adjustable `stop for retaining the carriage jin-itsl down `-position-after completion ofthe toastingoperation in order to keep the toast warm.` A controlarrangement constitutes another 4feature ,of my `invention for starting i the ymotor lto 1 drive :the carriage downwardly upon rinsertionof vbread lslices into toast receiving slots. A -further featureeof my invention consists `in the -use of-*birnetallic elements for timing the toasting operation.1 One bimetal strip is'associated with each oflthetoastreceiving slots, and all of the bimetalstripsmust move to open their corresponding sets` ofco'ntacts in order to interrupt the toastingoperation..4

The features of my invention which 1I believe to 245 be novel are set forth-with fparticularity 1in the appended claims.` My invention itselfphoweverf, both as to its organizationand methodl clipper-.- ation, together with further objects and "ativan tagesvthereof, maybest be understo'odbyreference to lthe following description"takeniroconil `nection--Af-with the accompanying; drawings.' in

which Fig. 1 ris a side elevation of an electric toaster arranged in accordance `withthsfinven,-V

tion and having its outer toaster case in section;

2'` F1g..2. is. an, end ,elevation with'i .the .toaster .case removed to ,illustrate Lthe operating mechanism: Fig.g3is1 an exploded View in perspective .of 'mY ln'lproved toaster; and Fia/i is ascnematic wiring diagram for this toaster.

Referringto ,the drawing.` in ,Fig. .1 Ifhave shown my improved toaster with 4an.` outer en.- closingcase .comprising a plastic base` portion I andan upper metal chromiumrplatedhood 2.

`Handles `3 and 4 maybe attached to this outer casing for convenience in` handling pf the toaster. The lower. ,part l of the exterior case includes an inwardly directed iiange 5"for 4supporti ng the toaster operatingmechanism aboveithe surface ,on which the toaster is to rest;` Electric :power is. supplied for operation or this devicefthrough a.sui tab1ev electric cord 6 connectedfinside ofthe toaster` outer casing,A `to A appropriate .terminals such .as Projecting from the right-'hand 'end levers 8 and 9 having operating gknobs ill) and 'l l', respectively, on their outerA ends. Lever 8 "is the toast color control and lever 9 is the A.keepSwarm" control. The operation of lthese two levers :will be explained more fullyat a later point jin this description. A pair of slots Yliand `lil at'thetop of. .the toaster, best seen inFig. 3,"areA adapted to receive .slices of bread to be toasted.

The bread carriage, which is shown .most clearly in Figs, includes a bread supporting racfkrg'ld in eachjfof` the ,toasting Lchambers, Each rack yinclude's. `a plurality of outwardly extending gears, suchias., I5, upon which a slice of bread mayrest, with each ear apertured topermit'slidingmovefmentor4 carriage I4 with ,respect to. apluraltyof `guide wires i6.. Guide wires l6,.supDQrted `at their upper ends. by atoaster top vframe rnernber. l1, prevent the Ltoast from -coming ,into .direct 'conf tact Withheatingelement Wires .I 8. Eachlheating element consists. of .,a length; of,..`resistance Wire I8. supported on a sheet I9 ofA mica .orsmilar materialnot. ,disintegrated by '.'thezheat during toasting... Each toasting ,chamber .incl-udesa pair of suchheatingelements so .that aslice of. bread is.4 toasted evenly on` both sides simultaneously.

Side' members 20V and 42 l are. placed outside of the outer pair .of .heating ,elementsito enclose. come pletelysthe .toasting chamber .-andreflect heat from .the heating elementsdnwardlm thus... im,-

proving, f etiic'iency.` The ends ...of Afthe .toasting r chamberare also `enclosed byfendyplates 2' land 23. As shown in Fig. 3, 'eachend plate, includes afplurality. otears 24` bent over. to. engageside'szll.

It. is Y particularly important 'with'. this.; constr'uctio'nto' separate the toasting chamber from 'be used in accordance with this construction.

the chamber containing the toaster operating mechanism to prevent overheating of the operating components. End plate 23 serves as a heatreflecting barrier between these two compartments. Preferably it is of heat-reflecting metal, such as an aluminum sheet, although obviously it may be of insulating material or of other types. A heat barrier 2571s supported with respect to end plate 23 by'a plurality of fastening devices, such as 26, with an insulating spacer or washer 21 on each fastening device between end plate 23 and barrier 25, as well as a pair of insulating washers 23 and 29 under each fastener head to prevent the conduction of `heat tobarrier plate 25. By this construction heattran'sfer'from the toasting chamber to the mechanism compartment is effectively blocked. However, as an additional safety precaution and to preserve rthe life of the operating mechanism, a toaster base plate 35 is provided witha plurality of apertures, such as Si and 32, to permit entrance of cool air from underneath the toaster into the mechanism compartment.H Referringjto Fig. 1, it is seen that heat barrier 25 extendsfrom' base plate 3i) up wardly, butl stops' short Aat its upper end of "the toaster hood 2. Hot air rising from the toasting compartment moves upwardly, drawing cool air through the mechanism Vcompartment'by chiinu ney effect as an aid in'coolingof the electric jmotor and other operating parts.

As explained above, toast is carried in each of the toasting compartments on a rack I4. 'While "the present embodimentillustrates two toast refceiving compartments, itis obvious that an addi- ,.'tional number of vsuch compartments may be employed or a toaster'with a singletoast slot might In "a toaster eniployinga` plurality of ytoast-carrying racks such as i4, each racliinclu'des an end portion extending through end plate 25 and heat In the present instance I haveshown a cross bar 33 formed integrally' with apaifr of toast-receiving 'barrier 25 for connection to a cross bar.

racks I4. Slots 34 and`55 are provided through 'end plate 23 and heat barrier 25 to permit reciprocatingY movement of Vcross bar' 33 and the toastcarrying racks i4. Crossbar 33is rigidly connected to a vertically disposed yoke 35, best seen in Figs. 2 and '3. The assembly of yoke 36, cross bar 33, and the toast-carrying racks i4 will be hereinafter referred to as the toast carriage.

Referring again to Fig.V 3', yoke 36`includes'on its upper and lower ends laterally extending'and centrally apertured ears 31 and 36. such as at 35, may be carried by each of these ears so'that the entire carriage is-slidable up and Bushings,

vdown on a carriage-supporting rod 45. Rod 45 is affixed to base plate 36 at'its lower end and held in a vertical position at its upper end by an arm 4| attached to the heat barrier. 'En- 4circling the upper portionV ofVVV carriage rod 46 is a helical spring 42 withl its lower end positioned l'by a collar 43 secured to rod 46. .of spring 42 is underneath the laterally extendn The upper end ing ear 31 on yoke 36, whereby a downward movement of the carriage compresses spring 42. f

tact with a resilient contact-carrying arm 45 i attached to base plate 35. Arm 45 carries atits outer end a bridging contact 45 adapted toclose the circuit through the toaster heating elements 4 through contact buttons 41 and 48 supported on base plate 35 by an insulating bar 45. It is therefore seen that whenever the toast carriage is moved to its lowermost position, the heating element is energized. Also, when the toast carriage is held in its lowermost position,Y a slight upward movement permits resilient arm 45 to raise .bridging contact `45 and thus break the circuit through the toaster heating element.

In accordance with this invention, it is unnecessary for the operator to depress the carriage against the action of the carriage return spring 42,-inasmuch--`as a motor drive is provided for this purpose. Referring to Fig. 3, an electric motor v5 tl ,f`such'asa shaded pole induction motor,

having a shaft 5l is supported on a motor mounting and gear plate 52. Plate 52 has a bottom flange 55 apertured at 54 and 55 for attachment B6 isA supported with respect to plate 52 by abearing pin 61'. 'This carriage drive gear carries with'it during rotation a winding drum 68,'the outer surface of which has connected' thereto a chain 69 which, in turn, is connected to carriage yoke 35 through a spring arm 10. Spring arm 10 is adjustably connected to a laterally extending portion 1l on yoke 36,v as best seen in Fig. 3. The adjustment stop 12 facilitates proper adjustment between chain 69 and the carriage. Carriage drive ,gear 66 is biased in a` clockwise direction, corresponding to the uppermost position of the'carriageQbya helical spring 13 having one endextendingthrough an aperture 14 in gear 65 andanother end 15 extending through an aperture 16 in inounting'plat'e 52.

To limit the clockwise rotation of gear 'under the influence of spring 13, gear 66 has connected thereto aradially extending arm 11, 4which is -limited in its clockwise rotation by a stop pin 18 carried by supporting plate 52. When the radially extending arrn I'I'on gear 66 is in'contact with stop pinl 18, the toast carriage is in itsnormally ,up or non-toasting position. However, when power is supplied to motor 50, the gear reduction drive rotates the carriage driving gear 65 in a counterclockwise direction as shown by the arrow. Thisrotation also rotates drum 6B which A`winds the chain 65 in agroove 19 on its outer surface, thus pulling down the toast carriage and compressing carirage spring 42. At the 'same time, helical spring 13 between carriage drive .gear 66 and supporting` plate 52 is placed under torsional stress. VWhen the carriage reaches its lowermostrpositiom at which time bushing 39 is in contact `with the toaster base plate 30, further llowering of the carriage and rotationof the reduction gearing is impossible. At this Apoint in ,the operation, motor 50 is stalled.V This motor .preferably is designed as a torque motor that may remain in a stalled position for a period of time without damage to the motor windings, thus eliminating the need for'additional motor switch- 'ing devices or a de-clutching arrangement. Throughout the toast heating operation, motor 50 remains in such a stalled position. Upon completion of the heating cycle, the motor circuit is interrupted, permittingthe .torsional stress in spring 13 andthe compressed stress infcarriage spring 42 to reverse'therotationof therreduction gearinglandrraise the toast Vcarriageto the up or non-toastingnposition-( The proportioningof the reduction igearing `is such that the main carriage drive gear `I'ii makes slightly less than one complete revolution in driving the carriage from itsli'ipper` position to its lower position. Since it isoft'en desirable to retain the toast withinthetoasting chamber after completion of thetoastingm operationninorder to keep it warm until Aitis desiredwfor consumption, I provide an arrangementffor limiting the return ofthe toast carriage to its` upper position, Referring to Figs, a stop lever 80 is pivotallylmounted on supporting plate`52 at aperture 8|.l lAfspring 80a biases lever vllllfi'n a counterclockwise direction against a stop pln `8llb Lever ."88 Amay have attached thereto a bushing 82 in, order to locate this lever in a lposition to engageradial'arm 11 aiiixedto the carriage drivingl gear.l Stoplever 80 has a notch 83, whereby upon return rotation of gear 66, the radially projectinguarm 11 on this gear engages in notch 83 to limit thereturn motion and upward vmovement of the carriage. However, the carriageis permittedto move upwardly a sufficient distance so that the projecting arm 44 on the carriage is free of resilient contactcarrying arm 45 lto interrupt the circuit to the toaster heating elementV In Ithis position 'the toast remains within Vtlievtoasilllg compartment, but the heating element is off. In such a position, the toast keeps warm from Athe 'residual heat within the toasting compartment until it is ready for consumption. The `pivotal movement of the stop lever 881s controlledby #keep warm lever 9. Lever 9 is, in turn, pivotally mounted by a rivet 84 to an angle supportingb'racket 85, which is l connected to heat barrier 25 by athre'aded fastening vdevice 8B, as seen in Fig. 2; With this comstruction, an upward movement of lever 9 results in a corresponding downward'movement of the left-hand end of stop lever 80, as 'shown' in Fig.

3,`so that notch 83 is inI a position to stop the return movement of stop arm 11. Therefore, when lever 9 is in its uppermostposition, the toast is retained in its fkeep warm" position upon completion of the toasting operation. However, when lever 9 is in its lowered position, notch 83 in the stop lever B0 is unable to 'interrupt the travelof radially projecting arm 11,- and thus the carriage returns to its uppermost position,`

From the description above,` it is seen that control vof the toasting operationis `effected by control of the supply of electrical power to motor Ell. Therefore, it is necessary "to'apply power to mctor to commence a -toasting `operation and this may be done in V several ways, such as by mounting `a separateswi-tch -ata convenient point on the tcasters InVthe-embodiment shown, I start the toasting operation, by a carriage-operated switch, whereby insertion of bread into-a toast-receiving slot` withV a slight Vdownward force depresses the carriage, Causing IlOllOr` Contacts to close. Referring to`Fig2aninsulatedbushingS'i is attachedto an outwardly-extendingfear on the carriage, Bushing 81 operates a resilient contact arm SBcarrying-a movable l contactfnil l for movement toward and yawayefrom, a fixed contact 80. These two4 ,contactsxrs and-.8f3A `are supported on arms, inspaced relation-:between insulating :blocks 18|, v92,fandw93 secured-to an angle bracket- 94 ,attached to, Jheat. barrier .25, r

With this arrangement a slight downward movement ci the carriage yoke 36:permits spring arm 88 to 'close contacts 88 and 90 and thus start the motor 50,- which continues the downward `move-v ment of the carriage until it is in a toasting positionl andthe contacts to the mainhea'ting'lelement are closed.

Referring to Fig. '3, I have shown an `alternate arrangement for commencing the toastingoperation and, in addition, a switching` arrangement for interruptng the toasting operation `at'fany point during the cycle. These switches are carried lby a switch Vplate supported lin spaced relation from heat barrier plate 2e by avplnrality of screws 98 'and spacers 91.@ A starting A,switch comprises a pair of contact points $38 andf'affixed to a pair of spring arms |00 and IM which) in turn, are secured between insulating blocken); `on an angle bracket |03. These contacts, which are normally open, may be closed by depression of a plunger operator |84 slidably carriedby switchplate S5 and having on its lower end an insulating bushing m5. Contacts 98-andj98iare in parallel with contacts 39 and 98 so that closure of either set of contacts will start Voperationof motor 58. Obviously, either switch alone would be sulcient for this device. Also, in lieu of employing the separate switch including contacts 98 and 99, plunger operator |84 may beso arranged that its downward movement willjmdepress the carriage to close contacts 89 and 90 and thus commence the toasting operation.`

Since occasionally it is desirable to interrupt the toasting operation before the completion of a cycle, a second plunger operator |86 isprovided for operation of a motor circuit interrupting switch. Plunger operator |85, which is slidably supported by switch plate 95, has a laterally extending pin Ia in operative relation ywith one arm of a T-shaped rocker |81. This T-shaped rocker has on one end of its head an insulated bushing |88 capable, upon its downwardmovement, ci' moving downwardly a springcontact arm |89. The movable contact arm |08 and a xed contact arm III! are carried between insulating blocks |I| secured to an angle bracket ||2 attached to switch plate 85. Arms Iiland Il carry contact points |I3 and I|4. These contact points, which are normally closed, are in the electrical circuit to motor 50. Thus, at any time during operation of motor 50 during the toasting cycle, a depression of operator IE6 opens contact points H3 and I Irl terminating operation of the motor and permitting the carriage to `return to its non-toasting position.y

To obtain avpositive action of operators |84 and |08, a toggle' mechanism is employed. This is shown most clearly in 3 illustratinga tog: gle bracket arm I|5 riveted to switch plate 95. Plunger operator |84 includes a laterally extending pin I |6 corresponding to pin H3G@ on operator |06. These pins are capable of causing `a rocking movement of the T-headed rocker |81, which has a laterally projecting pin II1 atitslower end for carrying the eye of a toggle pin II8. A spring IIS is ,held under compression between the toggle bracket arm l I5 and the eye of toggle pin I8, so that whenever one of the operators is depressed rocker |81 will pass through a center position after which the stress in spring IQ will force it to its other extreme positiontouraise the opposite operator.

For a toasting cycle to be performed entirely automatically, a suitable device is required-fdr adjustable to permit' the operator to obtainlight or darkV toast by a simple adustment. The timing device should also automatically compensate itself upon change of temperature within'a toastingcompartment. In the present embodiment, this timing operation is performed by a bimetallic element supported adjacent' the toast position for each of the toast receiving slots. Referring to Fig. 3, I have shown a thermostatic timing mechanism for toast receiving slot I2, it being understood that a similar thermostatic timing arrangement is employed in connection with toast receiving slot I3. The bimetallic element |20 is carried by an angle bracket |200. secured to a vertically extending supporting bar |2| attached at its upper end to top plate I7 and at its bottom .to base plate 30. Thermostat contact arms |22 and |23, which carry normally closed contacts, are supported on insulating blocks |24 and |23 secured to a pivotal bracket |20. Contact arm |23 carries at its upper end a U-shaped head |27, having attached to the top surface thereof an insulating bushing |28. The free end of bimetallic element |20, upon heating, moves outwardly into contact with bushing |28, resulting in movement of spring contact arm |23. Movement of contact arm |23 causes a separation of these thermostat contacts. When both thermostats in the two toasting compartments have opened their respective contact elements, operation of motor i! is interrupted for cessation of the toasting operation. Since the position of bushing |28 with respect to the bimetal element is critical, I nd it desirable to provide internal adjusting means within the toaster. As described above, the contact arms |22 and |23 are carried by a pivotal bracket |29 whichmay rock on a resilient bracket erm |29 secured to base plate 30. A screw |30 provides an adjustment between the pivotal arm |25 and the bracket arm |29 to change the relative posiltion between bushing |28 and the bimetal element |20.

To obtain color control, the color control lever B is pivotally supported with respect to heat barrier 25 on a bracket ISI. An upward and downward movement of lever 8 causes a corresponding Vmovement of link |32 extending downwardly through base plate 39. Link |32 is connected to the end of a crank |33. As shown in Fig. 3, crank |33, in the form of a stiff wire, extends inwardly toward the center of the toaster underneath base plate 30, and then extends longitudinally of the toaster'supported in suitable bearing brackets |33a, |332), and |330 best shown by Fig. 1. At an intermediate point, crank |33 has an eccentric portion |34, shown by Fig. 3. Connected to this eccentric portion are a pair of operating arms |35 and |36. Operating arm |35 serves, through a connecting link |31, to change the position of the contact strip |23 and bushing |28 with respect to the bimetallic element |29. Thus, if the operator wishes darker toast, color control lever 8 is depressed causing a counterclockwise rotation of crank |33. This rotary movement results in an upward movement of operating arm |35 and its corresponding link |3 to move the contact strip assembly and bushing |29 outwardly away from the free end of the bimetallic element. Therefore, the toasting operation will have a longer duration since it will take a longer period of time for the free end of the bimetal to move the contact strip to the open circuit position. The other operating arm |36 connected to eccentric |34 operates through an extension link similar to |31, in order to ,control the position of the contact assemblyassociated with the bimetallic element for toast receiving slot I3. Therefore, with this construction a separate bimetal elementV may be employed for each of the toast receiving slots, and a single color control lever serves to regulate the toasting time for both. I find it preferable to connect the contacts associated with each thermostatic element in parallel, so that both sets of contacts must be open in order to interrupt operation of the motor. Such a connection permits a single slice of toast to be toasted tothe desired color without a premature interruption and cessation of the toasting cycle due to the opening of the bimetallic element in the bread slot which contains no toast.

The operation of this device will be more clearly understood by a reference to the schematic wiring diagram of Fig. 4. The incoming alternating current Vis supplied to lines |38 and |39. vLine |30 is connected to both ycontacts 39 and 99.V Therefore, the closing of either set of contacts, 89 and 90, or 98 and 99, completes the circuit to conductor |40 leading to contacts |22 and |23 on one of the thermostat controls and contacts |4| and |42 on the other thermostat control. If either of these sets of contacts are closed, power is supplied through line |43 to the .motor winding |44. VThe other side of the motor winding is connected through contacts ||3 and ||4 to the other side of the power supply line |39. The toaster heating element is connected across the line by bridging-contact 45 on the toast carriage completing the circuit through contacts 4T and 48. To commence the toasting operation it is merely necessary to place a slice of bread into one of the bread-receiving slots with a slight downward pressure to cause a slight downward movement of the carriage 35. This downward movement permits closure of contacts B9 and 90 to commence operation of the motor through its winding |44. Alternately, operation of the motor may be commenced by depressing the operator |94 to close contacts 98 and 99 with the same result. If at any time during the 'toasting cycle it is desired to terminate the motor closed a new and improved automatic toaster.

Operation of this device may be started merely by exertion of a slight pressure upon slices of bread inserted in the toast-receiving slots. Thereafter, an electric motor drives the carriage downward to its toasting position causing energization ci the toaster' heating element. The toasting cycle is automatically timed by the use of bimetallic elements positioned adjacent each slice-receiving slot, simultaneously providing automatic temperature compensation of the timing cycle. vThis timing system also includes an improved color control to permit the operator to adjust externally of the toaster the length of time that the heating elements are energized. Furthermore, the automatic drive is adjustable to retain toast within the toasting compartment upon completion of the heating portion of the cycle, or to raise the toast to an exposed position for Vready removal. Also, an external switch operator placed at a convenient location on the toaster permits interruption of the toasting cycle KHe latarlyA time;"after=which l the/toast carriage is returnedto @its raised-position.

While 'the ps'nt invention has been de-1 scribed by reference toa particular embodiment thereof, it isitobefundersto'od that numerous modiiications may be made'by thosejskilled'in the art without actually departing from'the invention. iI, therefore, aimrin theappended claims to coverallsuch equivalent `variations as come withiirthe true spirit and "scope of the foregoing disclosure. g n W 'Wliat Iclaim as -newand desire to secure by Letters" Patent ofthe Unitedfstates is;V M

il.; In anelectric toaster/a main fra-mei and 'housing'enclosing the toastirigfchamber and supporting the-operating mechanism, heatingV ele- ',nifents `fortlf'le toasting chamber," a; toastjcarriage .'slidably supported by said frame `for reciprocat- `ing E movement between toastingA and lign-toastpositions, resilient ineanswbiasing "saidcarriag'e'to its non-toasting pcsiticnjan electric mo- 'tori for driving said'carriagej from its non-toast- Ying-tto its toasting position against theactionof said resilient means, said motor remaining in a stalled position while said carriage is in toasting position, contacts closing a circuit through said heating elements upon movement of said carriage to toasting position, and thermostatic means for interrupting supply of power to said motor whereupon said resilient means tends to return said carriage to non-toasting position. said thermostatic means comprising a bimetallic element adjacent each toast-receiving slot within said toasting chamber, a set of normally closed contacts associated with each of said bimetallic elements movable to open position upon heat responsive motion thereof, and a color control lever operable from a point external of said toaster to change the position of engagement oi each of said bimetallic elements with respect to its cor- E responding contacts, all of said bimetallic elements opening said contacts prior to opening of said motor circuit.

2. In an electric toaster, a main frame and housing enclosing the toasting chamber and supporting the operating mechanism, a heating element for the toasting chamber, a toast carriage slidably supported by said frame for reciprocating movement between toasting and non-toasting positions, resilient means biasing said carriage to its non-toasting position, a rotary electric torque motor drive for moving said carriage to its toasting position through a gear reduction against the action of said resilient means, contacts closing the circuit to said heating elements upon movement of said carriage to toasting position, means closing the circuit to said motor upon a slight downward movement of said carriage, said motor remaining in a stalled position when said carriage is in its toasting position, means interrupting the circuit through said motor, said means comprising thermostatically controlled switches including a separate thermostat and switch for each slice of toast carried by said carriage, and a manual switch operable from a point outside said housing, opening of said manual switch or opening of both of said thermostatically controlled switches interrupting the circuit to said motor, a stop manually movable into or out of engagement with the carriage motor drive to limit upward movement of said carriage, and adjustable means for regulating the time at which said thermostats open said motor circuit.

3. In an automatic electric toaster including a plurality of bread-receiving slots, an automatic :motor Y'drive for lowering a toast" carriage to toasting position, and resilient means for returning the toast carriageto non-toasting position, a timer f or regulating the'period o f; energization of said motor comprising a bimetal-lic element adjacent each bread slot, a pair of contacts in the Vcircuit to said motor 'associated with each bimetallic element, said l contacts being normally closed when the toaster is Kcoolvvheieby supply of heat to said toasterrcauseswmovement of said bimetallic elements to open said contacts, a color control lever movable-'from a point external Yof said toaster and operable through a connecting link and eccentric shaft for adjusting the position of said pairsof contacts'withrespect to their Acorresponding'"bimetallicelements,` each pair of said contacts being connectedin parallel with `said othercontactswhereby all`of` saidthermostatically-controlled contacts' must be open for interruption of said meier operation and return of the toast fcarriageto, non-,toasting ,pesition 4- In an automatic electrictoaster.a'ioast'carriage slidably supported within said toaster for reciprocating movement between toasting and non-toasting positions, resilient means biasing said carriage to its non-toasting position, an electric motor for driving said carriage to toasting position against the action of said resilient means, said motor remaining in a stalled position when said carriage is in its toasting position, interruption of power to said motor permitting said resilient means to return said carriage to nontoasting position, a switch for initially starting said motor movable to closed position by a slight downward movement of said carriage, and means interrupting the supply of power to said motor, said means comprising a thermostatic element associated With each bread-receiving slot, a pair of contact elements associated with each of said thermostatic elements, means operable from a point external of said toaster for adjusting the position of each pair of contact elements with respect to its associated thermostatic element, each pair of said contacts being in a normally closed position and movable to an open position by heat responsive movement of its associated thermostatic element, opening of all of said pairs of contacts interrupting said motor circuit, and a switch manually operable from a point external of said toaster for interrupting said motor circuit at any time.

5. In an electric toaster of the automatic type having a plurality of toast-receiving slots, a carriage for supporting slices of toast and movable between non-toasting and toasting positions, a resilient element biasing said carriage to a nontoasting position, a power drive for lowering said carriage to toasting position and retaining it in such position against the action of said resilient element, a circuit including switch means for controlling said power drive and adjustable means for timing the period during which said carriage is retained in its toasting position, said adjustable means comprising a bimetallic element thermally associated with each toast-receiving slot, a set of normally closed contacts in said circuit associated with each bimetallic element and adapted to be opened by movement thereof responsive to the temperature adjacent said breadreceiving slot, each contact set being insulatingly supported on a resilient bracket, a shaft including an eccentric rotatably carried by the toaster, means interconnecting said eccentric to each of said contact sets, whereby rotation of said shaft eccentric changes the position of each Contact set with respect to its associated bimetallic ele- 11Y ment, and means operable from a point external of said toaster for rotating said shaft.

6. In an automatic electric toaster having a plurality of toast receiving slots, a toast carriage movable between non-toasting and toasting positions, resilient means biasing said carriage to its non-toasting position, an electric power drive for moving said carriage to its toasting position, and an energizing circuit for said power drive, timing means for regulating the period of energization of said power drive, said timing means comprising a set of normally closed contacts for .each bread receiving slot, said contacts being connected in jseries circuit relation with said power drive, and a thermally responsive member associated with each set of contacts in immediate proximity to the toast position, heat responsive motion of each of said thermally responsive members being adapted to open its corresponding set of contacts, movement of allof said contact sets to their open position de-energizing said power 12 drive whereby said resilient biasing means'moves said carriage to its non-toasting position.

JOHN H. PALMER.

REFERENCES CITED The following references are of record in the le of this patent:

UNITED STATES PATENTS Number Name Date I Re. 21,060 Lavenburg Apr. 25, 1939 Re. 21,333 Malmquist Jan. 23, 1940 1,901,402 McCabe Mar. 14, 1933 1,923,590 Schlemm Aug. 22, 1933 2,039,956 Graham May 5, 1936 2,165,204 Anderson July 11,1939 2,182,124l Guerra Dec. 5, 1939 2,266,301 Biebel Dec. 16, 1941 2,270,327 Mills et a1. Jan. 20, 1942 2,288,713 Ireland July 7, 1942 2,330,644 Uhlrig Sept. 28, 1943 2,344,842 VS/eeks Mar. 21, 1944 2,378,073

Felver June 12, 1945 

